Yeon-kug Moon, H. Seo, Yong-Kuk Park, Kwang-Ho Won, Myunghyun Yoon, Jun-Jae Yoo, Seong-Dong Kim
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引用次数: 0
摘要
本文介绍了一种低电压、低功耗的通道选择模拟前端,它具有连续时间低通滤波器和高线性可编程增益放大器(PGA)。滤波器被实现为平衡的Gm-C双二次滤波器,以实现低电流消耗。采用一种新型的跨导(Gm)电池,实现了高线性度和恒定带宽。PGA具有从0到65 dB的电压增益变化,同时保持恒定的带宽。提出了一种需要精确时基但不需要外部元件的滤波器调谐电路。采用1 vrms差分输入和输出,该滤波器实现-85 dB THD和78 dB信噪比。滤波器和PGA均采用0.18 μ m 1P6M n阱CMOS工艺实现。它们从1.8 V电源中消耗3.2 mW,占用0.19 mm2的面积
Design of a CMOS Highly Linear Channel-Select Filter and Programmable Gain Amplifier for a WPAN Zero-IF Receiver
This paper describes a low-voltage and low-power channel selection analog front end with continuous-time low pass filters and highly linear programmable-gain amplifier (PGA). The filters were realized as balanced Gm-C biquadratic filters to achieve a low current consumption. High linearity and a constant wide bandwidth are achieved by using a new transconductance (Gm) cell. The PGA has a voltage gain varying from 0 to 65 dB, while maintaining a constant bandwidth. A filter tuning circuit that requires an accurate time base but no external components is presented. With a 1-Vrms differential input and output, the filter achieves -85 dB THD and a 78 dB signal-to-noise ratio. Both the filter and PGA were implemented in a 0.18 mum 1P6M n-well CMOS process. They consume 3.2 mW from a 1.8 V power supply and occupy an area of 0.19 mm 2
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